Method and system for grouping storage system components

ABSTRACT

Methods and systems are provided for associating a storage system component, e.g. a server, client, machine, sub-client, or other storage system component, with one or more other storage system components into a group. Storage preferences are defined for the group which is automatically associated with each component in the group. The storage preferences define how storage operations are to be performed on the storage system components.

PRIORITY CLAIM

This application is a continuation of and claims priority to U.S.application Ser. No. 12/960,323, titled METHOD AND SYSTEM FOR GROUPINGSTORAGE SYSTEM COMPONENTS, filed Dec. 3, 2010, which is a continuationof U.S. application Ser. No. 12/392,484, titled METHOD AND SYSTEM FORGROUPING STORAGE SYSTEM COMPONENTS, filed Feb. 25, 2009 which is acontinuation of U.S. application Ser. No. 11/269,519, titled METHOD ANDSYSTEM FOR GROUPING STORAGE SYSTEM COMPONENTS, filed Nov. 7, 2005, nowU.S. Pat. No. 7,500,053, which claims the benefit of priority of U.S.provisional application No. 60/626,076 titled SYSTEM AND METHOD FORPERFORMING STORAGE OPERATIONS IN A COMPUTER NETWORK, filed Nov. 8, 2004,and U.S. provisional application No. 60/625,746 titled STORAGEMANAGEMENT SYSTEM filed Nov. 5, 2004, each of which is herebyincorporated herein by reference in its entirety.

COPYRIGHT NOTICE

A portion of the disclosure of this patent document contains material,which is subject to copyright protection. The copyright owner has noobjection to the facsimile reproduction by anyone of the patent documentor the patent disclosures, as it appears in the Patent and TrademarkOffice patent files or records, but otherwise reserves all copyrightrights whatsoever.

RELATED APPLICATIONS

This application is related to the following pending applications, eachof which is hereby incorporated herein by reference in its entirety:

Application Ser. No. 09/354,058, titled Hierarchical Backup AndRetrieval System, filed Jul. 15, 1999;

Application Ser. No. 10/818,749, titled System And Method ForDynamically Performing Storage Operations In A Computer Network, filedApr. 5, 2004;

Application Ser. No. 60/519,540, titled System And Method For PerformingIntegrated Storage Operations, filed Nov. 13, 2003;

Application Ser. No. 60/567,178, titled Hierarchical System And MethodFor Performing Storage Operations In A Computer Network, filed Apr. 30,2004;

Application Ser. No. 11/269,520, titled System And Method For PerformingMultistream Storage Operations, filed Nov. 7, 2005;

Application Ser. No. 11/269,512, titled System And Method To SupportSingle Instance Storage Operations, filed Nov. 7, 2005;

Application Ser. No. 11/269,514, titled Method And System Of PoolingStorage Devices, filed Nov. 7, 2005;

Application Ser. No. 11/269,521, titled Method And System ForSelectively Deleting Stored Data, filed Nov. 7, 2005;

Application Ser. No. 11/269,515, titled Systems And Methods ForRecovering Electronic Information From A Storage Medium, filed Nov. 7,2005; and

Application Ser. No. 11/269,513, titled Method And System For MonitoringA Storage Network, filed Nov. 7, 2005.

BACKGROUND OF THE INVENTION Field of the Invention

The invention disclosed herein relates generally to data storage systemsin computer networks and, more particularly, to improvements inallocating system resources by automatically grouping storage systemcomponents such as hardware, software, or data components.

There are many different computing architectures for storing electronicdata. Individual computers typically store electronic data in volatilestorage devices such as Random Access Memory (RAM) and one or morenonvolatile storage devices such as hard drives, tape drives, or opticaldisks that form a part of or are directly connectable to the individualcomputer. In a network of computers such as a Local Area Network (LAN)or a Wide Area Network (WAN), storage of electronic data is typicallyaccomplished via servers and storage devices accessible via the network.These individual network storage devices may be networkable tape drives,optical libraries, Redundant Arrays of Inexpensive Disks (RAID), CD-ROMjukeboxes, and other devices.

There are also many different system processing and managementarchitectures for such storage systems. One common architecture is aclient-server architecture or two-tier architecture. The client-serverarchitecture is a network architecture in which servers are used tomanage system operations and components, such as storage operations,storage devices, databases, network traffic and processors, and otheroperations and components, for clients, which are typically computersrunning applications.

In general, when a system component, such as a client or a server, orother component, is newly added to the system or reallocated accordingto system storage requirements, each component must be individuallyconfigured in the network storage system. For example, the componentmust be associated with other existing system components or storageoperations, information about network pathways to connect to the newcomponent must be input into the system, and other system configurationrequirements must also be entered. This requires that a systemadministrator set forth a new system configuration each time a newsystem component is added. In certain small-scale storage systems,adding each new component may be practicable, however, in systems halingthousands of components, adding new components and respective individualconfigurations for each becomes onerous. There is therefore a need forimproved methods for adding and configuring storage system components.

BRIEF SUMMARY OF THE INVENTION

The present invention includes methods and systems for allocatingstorage system resources by automatically grouping and configuringstorage system components.

In one embodiment of the invention, a method and system for groupingnetworked storage system components is provided. One part of the methodinvolves selecting, among a plurality of storage system components, afirst storage system component. In general, the storage system componentmay be a machine, client, sub-client, server, or other storagecomponent. The first storage system component is generally selected froma list, or other interface, of the system components. The list ispreferably generated by querying an index of a storage manager.

Further, in accordance with the method, the first storage systemcomponent is associated with a second storage system component into agroup, such as a component group.

Data relating to the association of the first and second storage systemcomponent is stored as index data, preferably to the index of a storagemanager or a media management component. The first and second storagesystem components may be the same type of entity, such as two clients ortwo servers. Alternatively, the first and second storage systemcomponents may be different entities, e.g. a client is associated with aserver. Each storage system component is associated with or assigned atleast one storage preference. In one embodiment, the storage preferenceis a storage policy, sub-client policy, user preference or other storagepreference, each further described herein. In another embodiment, thestorage preference is defined by a system user or system administrator.In yet another embodiment, the storage preference is a defaultpreference.

According to another embodiment of the invention, a method and systemfor automatically associating preferences to a storage system componentis provided by selecting a storage system component. The selectedstorage system component is associated with an existing group of one ormore storage system components. The existing group has at least onepreference, such as a storage policy, sub-client policy, user preferenceor other storage preference, each further described herein. The at leastone preference is thus automatically associated with the selectedstorage system component associated with the corresponding group. Thusthe selected storage system inherits the at least one preference of thegroup. Data relating to the association of the selected storage systemcomponent with the group, and data relating to the at least onepreference of the group is typically stored as index data to an index ofa storage manager or media management component.

According to another embodiment of the invention, a method and systemare provided for automatically associating preferences to a storagesystem component by identifying at least one storage system component.The storage system component is identified, for example, by querying astorage manager. In addition, characteristics of the storage systemcomponent are detected, as further described herein. In accordance witha template, such as a master grouping policy, which sets forthparameters for grouping system components, the at least one storagesystem component is selected to be added to a group. The storage systemcomponent is typically automatically selected by comparing the detectedcharacteristics of the component to the parameters of the template.

The selected storage system component is then assigned to or associatedwith the group. In general, the group has one or more storage systemcomponents and already exists. The group generally has at least onepreference, such as a storage policy, sub-client policy, user preferenceor other storage preference associated with the group. The group's atleast one preference is automatically associated with the selectedstorage system component. Thus, the selected storage system componentinherits the at least one preference or policy of the group. In anotherembodiment of the invention, the association of the group and thepreference is stored as index data in the index of the storage manageror media management component.

The present invention further includes methods and systems operating inconjunction with a modular storage system to enable computers on anetwork to share storage devices on a physical and logical level. Anexemplary modular storage system is the GALAXY™ backup, retrievalsystem, and QiNetix™ available from CommVault Systems of New Jersey. Themodular architecture underlying this system is described in the abovereferenced patent applications, each of which is incorporated herein.

BRIEF DESCRIPTION OF THE DRAWINGS

The invention is illustrated in the figures of the accompanyingdrawings, which are meant to be exemplary, and not limiting, in whichlike references are intended to refer to like or corresponding parts,and in which:

FIG. 1 is a flow diagram presenting a method for grouping storage systemcomponents according to one embodiment of the present invention;

FIG. 2 is a flow diagram presenting a method for automaticallyassociating preferences of a group of storage system componentsaccording to one embodiment of the present invention;

FIG. 3 is block diagram showing a high-level view of the networkarchitecture and components according to one embodiment of theinvention;

FIG. 4 is a block diagram of an example of associated storage systemcomponents according to one embodiment of the invention;

FIG. 5 is a block diagram depicting an index cache within a storagemanager in accordance with one embodiment of the invention;

FIG. 6 is a flow chart of a method for initializing storage operationson electronic data in a computer network according to one embodiment ofthe invention;

FIG. 7 is a flow chart of a method for updating a storage procedureassigned in a computer network according to one embodiment of theinvention; and

FIG. 8 is a flow chart of a method for performing a storage operationaccording to one embodiment of the invention.

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENT

In the following description of preferred embodiments, reference is madeto the accompanying drawings that form a part hereof, and in which areshown by way of illustration embodiments in which the invention may bepracticed. It is to be understood that other embodiments may be utilizedand procedural and structural changes may be made without departing fromthe scope of the present invention.

The present invention involves methods and systems for configuring astorage system by grouping components of the system into logicalgroupings, assigning the groups to storage policies, which defineaspects of storage operations, and applying these storage policies tothe components in the groups to perform the storage operations. Thecomponents upon which these methods may be performed include hardwarecomponents, such as clients, hard drives, backup devices, oridentifiable portions thereof, software components such as applicationsresiding on clients, and data sources such as data stored withinspecified directories on client machines or data associated withspecific applications. Components may include sub-clients, whichgenerally refers to hardware, software or data portions of clients inthe system. Components may be grouped manually, based on userselections, or may be grouped in an automated fashion by identifyingcommon characteristics of components or by applying a template to systemcomponents.

The methods described herein may be performed in any storage system. Thefunctionality for creating and maintaining data representing groupassignments and associations and with policies, for storing such dataand applying the policies is typically provided by a storage manager forthe storage system.

Referring to FIG. 1, then, system components are selected, step 10, tobe grouped. The selection may be performed through manual input, forexample, from a menu, screen or other listing of system components. Ingeneral, a system component listing is provided by querying an index ortable storing identifiers for system components and includes componentssuch as machines, clients, data agents, sub-clients, or other hardwareor software components. The presence of system or network hardware andsoftware components may be input into the index by system administratorsor may be automatically discovered by conventional network managementsystems as known to those of skill in the art. The list of systemcomponents will typically include a list of existing component groups inthe system, if any. Each system component in the list may be presentedtogether with information about the components, such as type, location,applications used, or other information. A user or administrator maywant to group system components, for example, according to componenttype, component location, department in which the component is used, itsrole in the enterprise, application type, or other category orcharacteristic. For manual input, the user or administrator selects thecomponent(s) to group, for example by highlighting, clicking orotherwise selecting the components in a user interface.

The selected components are associated in a group, step 15. Theassociation of the components in the group is accomplished by storingdata relating to the association of the group components as index datain an index accessible to a storage manager. Storage preferences areassociated with the group, step 20. Assigning preferences to the groupcauses each of the components in the group to inherit the grouppreferences. In some embodiments, default storage preferences areautomatically assigned to a new group temporarily until a user oradministrator defines storage preferences for the group. In otherembodiments, a user or administrator manually defines storagepreferences for the group. Data relating to the preferences associatedwith the group is typically stored as index data in the index accessibleto the storage manager.

When a system has existing groups, and a new system component is addedto the existing group, a user or administrator need not individuallyconfigure a new storage policy, sub-client policy, user preference orother defined storage preferences for each new component. In yet anotherembodiment of the invention, a component may be automatically associatedwith storage preferences by associating the component with a group,which has associated storage preferences. Thus, inheritance is providedfor the new components added to an existing group. Inheritance providesthe ability for a component group's predefined definitions of storagepolicies, sub-client policies, user preferences or other storagepreferences to be automatically applied to a client or other systemcomponent newly associated with the component group.

An example of the method described in FIG. 1 is as follows. A server isassociated with a component group, which has a defined storage policy,sub-client policy, user preferences or other storage preferences. Whenthe server is associated with the existing component group, the serverinherits the storage policy, sub-client policy, user preferences orother storage preferences of the group. Data relating to the associationof the server in the group and the associated storage preferences isstored as index data. In another embodiment of the invention, the useror administrator may define or amend the storage preferences of thegroup at any time and the storage preferences for each component in thegroup is defined or amended accordingly.

Another example of the method described in FIG. 1 involves the groupingof certain data structures across a number of clients in the storagesystem. For example, if an administrator wished to perform a storageoperation, such as a backup operation, on all email files stored onclients according to a single set of preferences or rules, those fileswould be grouped into a single logical group, which group would then beassociated with the storage policy that defined the preferences andprocedures to be followed by the storage system for performing thestorage operation. Thus, any client device having data belonging to thegroup would be automatically associated with this policy, without theneed to separately configure the client device. The data in these typesof sub-clients could be distinct groupings of application data, filesystem data, operating system data or any other type of grouping.Additionally, data may span multiple sub-clients and sub-clients may bephysically located on more than one computer or storage volume.

Component groups can be automatically created without user input.Referring to FIG. 2, in another embodiment of the invention componentsare assigned to a group in accordance with one or more master groupingpolicies or templates. The grouping policy or template sets forth ageneral policy or templates for grouping components, which includes, forexample, parameters for grouping components. The policy or template maybe based on characteristics of the component, storage preferences, orother logic. For example, a component running a particular applicationor a certain type of component may be a parameter for creating a group.As another example, data stored for given software applications orwithin a defined set of directories on a client may be parameters forgroup creation. In such a case, the template would define how to locateand identify such components, including for example, by locating certainpathways on a client device or for looking for files having certain nameextensions. The grouping policy or template is preferably stored asindex data in the index of a storage manager or a media managementcomponent.

In general, the system detects components, step 30, to assign to agroup. For example, the system detects when a new hardware, software orother system component is added to the system, when a component changes,such as when a characteristic of the component changes, or when suchcomponent becomes available. According to one embodiment, the systemqueries the components or related storage system management componentsto detect system components to be assigned to a group. According toanother embodiment, whenever a component, such as a storage device, suchas a client or server, software application or other component is addedto the system, or whenever a component changes characteristics, it isautomatically detected to be added to a group. The changedcharacteristics in devices may be ‘detecting by querying storage systemcomponents associated with or responsible for those devices to checkcharacteristics. Techniques for doing such checking of devicecharacteristics are described in co-pending patent application Ser. No.11/269,513, titled METHOD AND SYSTEM FOR MONITORING A STORAGE NETWORK,filed on even date herewith, which application is incorporated herein byreference in its entirety.

The component characteristics are identified, step 32, by the system. Insome embodiments, the storage manager index data supplies informationregarding a system component to be grouped. In other embodiments, thesystem automatically detects characteristics of the component. Componentcharacteristics may include, for example, network pathways, processorspeed, location, user preferences, client application type, storagetype, storage operation type, manager preference, hardware type,software type, department in which it is used, its role in theenterprise, server type, or other characteristic. Based on theidentified component characteristics, and in accordance with thegrouping policy or template, certain components are selected, step 34.The component(s) are selected, as appropriate, when the identifiedcharacteristics of the component are equivalent, correspond to, or areotherwise related to the parameters of the grouping policy or templatein accordance with a threshold or algorithm defined in the template orpolicy.

For example, when a new client is added to the system that runsaccounting applications, the new client is detected by the storagemanager and identified as an accounting department related client. Sucha client, or a relevant portion thereof acting as a sub-client, wouldlikely be added to a group of accounting department components, or othercomponent group according to the grouping policy or template for clientsrunning accounting applications. In another example, when a storagedevice becomes available for storage operations, or otherwise changesstate, it is detected by the storage manager and identified as beingavailable, and having particular characteristics, such as storagecapacity. The storage device would likely be added to a component grouprequiring its particular storage capacity, or otherwise in accordancewith the grouping policy or template.

The selected component(s) are associated with the group, step 36, inaccordance with the grouping policy or template. The association of theselected component(s) is stored as index data in the index of a storagemanager. Any preferences associated with the group are automaticallyassociated with the selected component(s) added to the group, step 38.In one embodiment, the association of the group preferences is stored asindex data.

In another embodiment, the automatic group assignment and association ofstorage preferences is a temporary grouping. In this embodiment, amessage or alert is sent to a user or administrator regarding theaddition of the new component to a group. The user can confirm thegrouping, or manually change the grouping if necessary.

As an example of the process set forth in FIG. 2, suppose anadministrator of a storage network wants to configure the network suchthat all data associated with a messaging application such as MICROSOFTEXCHANGE be stored in accordance with one set of preferences, includingtype of backup device, length of storage, encryption used, etc., whileall data representing individual work product of users in the network bestored according to a different set of such preferences. Theadministrator would establish one template, which locates the standardoperating system directories, set up by the messaging application duringinstallation, and would establish a second template to locatedirectories such as MyDocuments or MyPhotos in which users are expectedto store live, production data of their work files. The templates wouldthen be used in the process to assign these directories on each clientmachine with their respective groups, in this case a first group formessaging sub-clients and a second group for user working files. Thesegroups would be associated with the respective storage policiesgenerated by the administrator. When a storage operation is performed,the storage manager applies the storage policy to the data files in thedirectories assigned to each respective group, so that all the messagingdata files are stored according to the messaging storage policy and allthe working files are stored according to the user working file storagepolicy.

As indicated above, these processes may be performed in any storagesystem configuration. An example of a storage system employing thesemethods is shown in FIG. 3. As shown, the system includes a plurality ofclients 50 (of which one is shown), data agents 60, sub-clients 62, 64,a data store 70, a storage manager (or storage management component) 80,a jobs agent 85, a storage manager index 90, one or more mediamanagement components (or media agent) 100, one or more media managementcomponent indexes 110, and one or more storage devices 120. AlthoughFIG. 3 depicts a system having two media management components 100,there may be one media management component 100, or a plurality of mediamanagement components 100, providing communication between client 50,storage manager 80 and storage devices 120. In addition, the system mayinclude one or a plurality of storage devices 120.

A client 50 may be any networked client 50 and typically includes atleast one attached data store 70. The data store 70 may be any memorydevice or local data storage device known in the art, such as a harddrive, CD-ROM drive, tape drive, RAM, or other types of magnetic,optical, digital and/or analog local storage. The data store 70 includessub-client 1 62 and sub-client 2 64. The sub-clients 62, 64 aregenerally used to identify portions of data in the data store 70. Asub-client typically contains a subset of the client applications.Although there are two sub-clients shown in FIG. 3, one or moresub-clients may be created for a client computer, as explained furtherabove.

In some embodiments of the invention, client 50 includes at least onedata agent 60, which is a software module that is generally responsiblefor performing storage operations on data of a client 50 stored in datastore 70 or other memory location. Storage operations include, but arenot limited to, creation, storage, retrieval, migration, deletion, andtracking of primary or production volume data, secondary volume data,primary copies, secondary copies, auxiliary copies, snapshot copies,backup copies, incremental copies, differential copies, syntheticcopies, HSM copies, archive copies, Information Lifecycle Management(“ILM”) copies, and other types of copies and versions of electronicdata. In some embodiments of the invention, the system provides at leastone, and typically, a plurality of data agents 60 for each client, eachdata agent 60 is intended to backup, migrate, and recover dataassociated with a different application. For example, a client 50 mayhave different individual data agents 60 designed to handle MicrosoftExchange data, Lotus Notes data, Microsoft Windows file system data,Microsoft Active Directory Objects data, and other types of data knownin the art.

The storage manager 80 is generally a software module or applicationthat coordinates and controls the system, for example, storage manager80 manages and controls storage operations performed by the system. Thestorage manager 80 communicates with all components of the systemincluding client 50, data agent 60, media management components 100, andstorage devices 120 to initiate and manage storage operations. Thestorage manager 80 preferably has an index 90, further described herein,for storing data related to storage operations. In general, the storagemanager 80 communicates with storage devices 120 via a media managementcomponent 100. In some embodiments, the storage manager 80 communicatesdirectly with the storage devices 120 (not shown in FIG. 3).

The system includes one or more media management components 100. Themedia management component 100 is generally a software module thatconducts data, as directed by storage manager 80, between client 50 andone or more storage devices 120, for example, a tape library, a harddrive, a magnetic media storage device, an optical media storage device,or other storage device. The media management component 100 iscommunicatively coupled with and controls the storage device 120. Forexample, the media management component 100 might instruct a storagedevice 120 to perform a storage operation, e.g., archive, migrate, orrestore application specific data. The media management component 100generally communicates with the storage device 120 via a local bus suchas a Small Computer System Interface (SCSI) adaptor.

Each media management component 100 maintains an index cache 110, whichstores index data that the system generates during storage operations asfurther described herein. For example, storage operations for MicrosoftExchange data generate index data. Media management index data includes,for example, information regarding the location of the stored data on aparticular media, information regarding the content of the data storedsuch as file names, sizes, creation dates, formats, application types,and other file-related criteria, information regarding one or moreclients associated with the data stored, information regarding one ormore storage policies, storage criteria, or storage preferencesassociated with the data stored, compression information,retention-related information, encryption-related information,stream-related information, and other types of information. Index datathus provides the system with an efficient mechanism for performingstorage operations including locating user files for recovery operationsand for managing and tracking stored data.

The system generally maintains two copies of the media management indexdata regarding particular stored data. A first copy is generally storedwith the data copied to a storage device 120. Thus, a tape may containthe stored data as well as index information related to the stored data.In the event of a system restore, the index data stored with the storeddata can be used to rebuild media management component index 110 orother index useful in performing storage operations. In addition, mediamanagement component 100 that controls the storage operation alsogenerally writes an additional copy of the index data to its index cache110. The data in media management component index cache 110 is generallystored on faster media, such as magnetic media, and is thus readilyavailable to the system for use in storage operations and otheractivities without having to be first retrieved from storage device 120.

The storage manager 80 also maintains an index cache 90. Storage managerindex data is used to indicate, track, and associate logicalrelationships and associations between components of the system, userpreferences, management tasks, and other useful data. For example,storage manager 80 might use its index cache 90 to track logicalassociations between media management components 100 and storage devices120. The storage manager 80 may also use its index cache 90 to track thestatus of storage operations to be performed, storage patternsassociated with the system components such as media use, storage growth,network bandwidth, service level agreement (“SLA”) compliance levels,data protection levels, storage policy information, storage criteriaassociated with user preferences, retention criteria, storage operationpreferences, and other storage-related information.

A storage policy is generally a data structure or other information,which includes a set of preferences and other storage criteria forperforming a storage operation. The preferences and storage criteria mayinclude, but are not limited to: a storage location, relationshipsbetween system components, network pathway to utilize, retentionpolicies, data characteristics, compression or encryption requirements,preferred system components to utilize in a storage operation, and othercriteria relating to a storage operation. A storage policy may be storedto a storage manager index, to archive media as metadata for use inrestore operations or other storage operations, or to other locations orcomponents of the system.

Index caches 90 and 110 typically reside on their corresponding storagecomponent's hard disk or other fixed storage device. For example, jobsagent 85 of a storage manager component 80 may retrieve storage managerindex 90 data regarding a storage policy and storage operation to beperformed or scheduled for a particular client 50. The jobs agent 85,either directly or via another system module, communicates with the dataagent 60 at the client 50 regarding the storage operation. In someembodiments, jobs agent 85 also retrieves from index cache 90 a storagepolicy associated with client 50 and uses information from the storagepolicy to communicate to data agent 60 one or more media managementcomponents 100 associated with performing storage operations for thatparticular client 50 as well as other information regarding the storageoperation to be performed such as retention criteria, encryptioncriteria, streaming criteria, etc. The data agent 60 then packages orotherwise manipulates the client data stored in client data store 70 inaccordance with the storage policy information and/or according to auser preference, and communicates this client data to the appropriatemedia management component(s) 100 for processing. The media managementcomponent(s) 100 store the data according to storage preferencesassociated with the storage policy including storing the generated indexdata with the stored data, as well as storing a copy of the generatedindex data in media management component index cache 110.

In some embodiments, components of the system may reside and execute onthe same computer. In some embodiments, a client component such as dataagent 60, media management component 100, or storage manager 80coordinates and directs local archiving, migration, and retrievalapplication functions as further described in application Ser. No.09/610,738. These client components may function independently ortogether with other similar client components.

Referring to FIG. 4, storage system components may be associated withother storage system components to form a group, such as a componentgroup. The component group is a logical arrangement of one or morestorage components. Other component groups may also be formed thatrepresent logical arrangements of one or more system components. Forexample, a component group may be formed having one or more client andserver components logically arranged in a group, a storage device groupmay be formed having one or more storage devices logically arranged in agroup, or other groups of storage system components, etc. A group ofportions of volumes in clients may also be arranged. In essence, anyidentifiable component, which can be operated upon by a storageoperation, can become an element of a storage group.

Examples of representative component groups described herein include aclient group, client-server group and heterogeneous component group.Examples of client group 200, client-server group 205 and heterogeneouscomponent group 208 are shown in FIG. 2. Client group 200 includesclients 1-5, 170-178 which are logically associated in a group.According to one embodiment of the invention, each of the clients 1-5,170-178 are associated with similar storage preferences, furtherdescribed herein. Similarly, clients 6-n, 180-184 and server 160 arelogically associated in a client-server group 205, and storage manager192, storage device 194, media management component 196, and client X198 are logically arranged in a heterogeneous component group 208.

Each of the components in the component groups 200, 205 and 208 areassociated to have similar storage preferences, further describedherein. As shown, a client group 200, client-server group 205,heterogeneous group 208, and similarly, any other component group maycontain one or more components. When a component is associated withanother component in a group, data relating to the association of thegroup is stored as index data in the storage manager index or mediamanagement component index.

A component group typically has a defined storage policy, sub-clientpolicy, user preferences or other defined storage preferences. Datarelating to the storage policy, sub-client policy, user preferences orother defined storage preferences assigned to the component group arestored in an index, such as the storage manager index. In general, astorage policy defines preferences and procedures for all devices in theassociated group. User preferences may be any storage operationpreferences set by an administrator or other system user, and whichgenerally overlap with preferences set forth in a storage policy,sub-client policy, or other storage preferences. Other storagepreferences that may be set in a storage policy include:

-   -   data security settings;    -   encryption settings;    -   data retention requirements;    -   frequency of storage operations such as back ups;    -   types of data for storage operations such as back ups;    -   types of storage operations to perform in the component group;    -   network pathways for use in performing a storage operation;    -   scheduling such as a schedule of storage operations; and    -   reports such as automatic generation of system reports regarding        the group.

Each component in a component group inherits the component group'sdefined storage policy, sub-client policy, user preferences or otherdefined storage preferences. For example, when a client or othercomponent is associated with a group, the storage preferences associatedwith the group are also associated with the client or component added tothe group. Thus, new clients inherit the new storage policy, sub-clientpolicy, user preferences or other defined storage preferences. Forexample, when a new client is added to a group, the new client inheritsthe jobs scheduled for the group to which it was added. The storagepreferences inherited by the new client are updated to the mediamanagement index.

Several different techniques and data structures may be used to maintainthe associations of clients, sub-clients, and other devices and softwarewith a group, and to maintain the association of a group with a storagepolicy or preference set. In some embodiments, a simple data structuresuch as a look up table may be used to match up groups, identifiedthrough names or other identifiers assigned by an administrator orgenerated based on the characteristics of the group, with thecomponent(s) listed to be in that group and the policy or policiesassociated with the group. Alternatively, a relational database may beemployed in which, for example, each group has a series of records in atable identifying the components in the group, and one or more othertables are associated with the group tables to create links betweengroups and storage policies and between groups and other properties. Inan object oriented programming system, the groups may be defined asclasses of objects where each object represents the properties orcharacteristics of the group and further contains the storage policy ora link or pointer to the storage policy associated with the group. Eachnew component determined or identified to be associated with the groupwould then instantiated as an instance of the object class for thatgroup. One skilled in the art of programming would recognize that otherprogramming techniques or data structures may be employed to similareffect and are included within the scope of the present invention.

An example data structure for storing groups and their associations withpolicies is shown in FIG. 5. As shown in FIG. 5, the index cache 90accessible to storage manager 80 contains a mapping between logicalstorage groups SG₁, SG₂, SG₃, SG₄, . . . , SG_(n), and respectivestorage procedures 350, labeled SP₁, SP₂, SP₃, SP₄, . . . , SP_(n). Asshown, group SG₁ is mapped with storage procedure SP₁. If theadministrator desires to change the storage procedure associated withall of the data in-group SG₁, the administrator may simply reassign thatgroup to, for example, storage procedure SP₄—such a potentialreassignment being shown in FIG. 5 through a dotted line. In this way,instead of requiring the administrator to enter a change for everyportion of data in-group SG₁, the administrator may simply make onechange in mapping. Similarly, if a storage system component changed itscharacteristics such that it switched from group SG₂ to SG₃, the storagepolicy that would apply to that component would automatically beswitched from SP₂ to SP₃. Although not shown in FIG. 5, it is understoodthat multiple groups may be mapped to one storage policy, and that onegroup may be mapped to multiple storage policies.

In general, a user or administrator may define a component group to haveany storage policy, sub-client policy, user preference or other storagepreference. In addition, each client can be divided such that one ormore sub-clients or one or more sub sets of a data store of a client canbe associated in different component groups. For example, sub-client 1of client 1 may be associated with component group 1, sub-client 2 ofclient 1 may be associated with component group 2 and component group 3.The storage policy, sub-client policy, user preference or other storagepreferences of each component group is inherited by the componentassociated with the component group. A particular group of volumes 160may store similar data for an application, file system, operating systemor any other type of data. When configuring the storage operations foran application, a plurality of storage groups F, G, H and K are createdwhich logically group portions 170 of data stores 90. This isaccomplished by assigning a logical name space to the physical locationof portions of data 170 residing on a particular hard disk HD w, x, yand z.

Components, such as clients, may be associated with one or more groups.For example, a client may be associated with a client group, aclient-server group or a heterogeneous group. In the event that acomponent is associated with more than one group, the component receivesthe storage policies, sub-client policies, user preferences or otherdefined storage preferences for each group. A component's associationwith more than one group can lead to, for example, overlapping back upoperations or other duplicative storage operations. This overlap isuseful in some systems to provide additional data back up protection.There are conflicting aspects of the overlapping operations ofpreferences in the storage policies to which a component is associated.To resolve this problem, the groups may be stored in a hierarchy ofgroups or otherwise prioritized, so that the policy of the group higherin the hierarchy than other groups, or otherwise having a higherpriority, would control over groups lower in the hierarchy. Inalternative embodiments, a given component that could be associated withtwo or more groups would only be assigned to the group having the higherpriority.

Referring to FIG. 6, there is shown a flow chart of a method forinitializing a storage operation on electronic data in a computernetwork according to an embodiment of the invention. The method in FIG.6 could be used with, for example, the systems described with referenceto FIGS. 3 and 4. At step S2, an administrator defines portions of datasources for data stores in the network. These portions could be entirevolumes or portions of volumes and may be on a single computer or acrossmultiple computers including use of network attached storage. At stepS4, the administrator groups together a plurality of the portions into alogical group. For example, all the MICROSOFT EXCHANGE application dataon data stores may be grouped together. At step S6, an identifier isassigned to the group. At step S8, the administrator assigns anotherrespective identifier for each storage procedure used in the system. Atstep S10, the administrator associates the identifier for the group withthe identifier for a desired storage procedure for the group.

Referring to FIG. 7, there is shown a process for changing storageprocedures in accordance with an embodiment of the invention. Theprocess shown in FIG. 7 could be implemented using, for example, thesystem described in FIGS. 3-4. As shown in FIG. 7, at step S20, a secondidentifier is assigned to a second storage procedure. At step S22, theidentifier associated with the first storage procedure is disassociatedfrom the group defined in step S4. At step S24, the second identifier isassociated with the group.

From the perspective of an administrator or other system user, users mayadminister and track preferences relating to component groups or othercomponent groups, such as system resource requirements, networkpathways, administrative access to system components, storage cost,resource use, or other preferences. Tracking storage costs by componentgroups provides an easier way to bill a user or client for the resourcesutilized. An example of a costing metric is further described in patentapplication Ser. No. 60/567,178. Thus, the component groups also providean efficient means to monitor and administer a network at a high level.

As explained above, storage operations are performed in accordance withthe inventions described herein by applying the storage policiesassociated with components on which the storage operations are to beperformed. A process for applying storage policies in the context ofsub-clients is illustrated by FIG. 8. A storage operation may beinitiated for specific application data, step 500. In general, thestorage operation may be initiated by a user or administrator, orautomatically initiated by a storage manager, media agent or othersystem component based on a storage policy, as described herein. Uponinitiation of the storage operation, a storage manager obtains a storagepolicy, such as a sub-client policy, step 510, associated with thespecific application data that is the target of the storage operationand any other storage policies associated with the storage systemcomponents on which the application data is stored. For example,MICROSOFT EXCHANGE data may be associated with a sub-client policy whichindicates that such application data is to be copied daily using one ormore particular devices or components and the device on which theEXCHANGE data is stored may be associated with another storage policy.

The storage manager retrieves a sub-client location based on thesub-client policy, step 520. The sub-client location may be identifiedby consulting an index entry, such as a look up table, relating to thesub-client policy. Such an index entry may be a listing of systemcomponents, including sub-clients, or other index entry. Informationrelating to the sub-client location and media agent is communicated froma storage manager to a data agent, step 530. As described furtherherein, the data agent is typically associated with a client computerand may be a software module for performing storage operations onapplication specific data generated by the client computer, such as theapplication data that is the target of the storage operation. The dataagent retrieves sub-client data from a data store located on the clientcomputer, step 540. The retrieved sub-client data is transmitted orotherwise made available to an appropriate media agent, step 550, forperforming the storage operation on a storage device through a copyoperation performed in accordance with any preferences set forth in thestorage policy.

Systems and modules described herein may comprise software, firmware,hardware, or any combination(s) of software, firmware, or hardwaresuitable for the purposes described herein. Software and other modulesmay reside on servers, workstations, personal computers, computerizedtablets, PDAs, and other devices suitable for the purposes describedherein. Software and other modules may be accessible via local memory,via a network, via a browser or other application in an ASP context orvia other means suitable for the purposes described herein. Datastructures described herein may comprise computer files, variables,programming arrays, programming structures, or any electronicinformation storage schemes or methods, or any combinations thereof,suitable for the purposes described herein. User interface elementsdescribed herein may comprise elements from graphical user interfaces,command line interfaces, and other interfaces suitable for the purposesdescribed herein. Screenshots presented and described herein can bedisplayed differently as known in the art to input, access, change,manipulate, modify, alter, and work with information.

While the invention has been described and illustrated in connectionwith preferred embodiments, many variations and modifications as will beevident to those skilled in this art may be made without departing fromthe spirit and scope of the invention, and the invention is thus not tobe limited to the precise details of methodology or construction setforth above as such variations and modification are intended to beincluded within the scope of the invention.

1. A method for grouping networked storage backup devices, the methodcomprising: creating a first group of networked backup devices;associating with one or more computer processors the first group with afirst schedule of storage operations; creating a second group ofnetworked backup devices; associating with one or more computerprocessors the second group with a second schedule of storageoperations; and assigning at least a first backup device associated withthe first group to both the first group and the second group, whereinthe first backup device inherits the second schedule of storageoperations associated with the second group while retaining the firstschedule of storage operations associated with the first group, and inthe event the first schedule of storage operations associated with thefirst group conflicts with a second schedule of storage operationsassociated the second group, the schedule of storage operationsassociated with a higher priority controls.
 2. The method of claim 1,wherein creating the first group comprises selecting backup devicesbased on the backup devices having a common characteristic.
 3. Themethod of claim 1, wherein creating the first group is based on atemplate.
 4. The method of claim 1, wherein creating the first group isbased on user input.
 5. The method of claim 1, wherein when the firstbackup device automatically inherits the second schedule of storageoperations associated with the second group while retaining the firstschedule of storage operations associated with the first group.
 6. Themethod of claim 1, wherein in the event a non-conflict storage operationassociated with the first schedule of storage operations is to beperformed on the first backup device, performing the non-conflictstorage operation in accordance with the first schedule of storageoperations.
 7. The method of claim 6, wherein in the event anon-conflict storage operation associated with the second schedule ofstorage operations is to be performed on the first backup device,performing the non-conflict storage operation in accordance with thesecond schedule of storage operations.
 8. A computer system for groupingnetworked backup devices, the system comprising: a first group ofnetworked backup devices comprising one or more computer processors anda second group of networked backup devices comprising one or morecomputer processors; at least a first schedule of storage operationsassociated with the first group; at least a second schedule of storageoperations associated with the second group; and wherein in the event atleast a first backup device associated with the first group is assignedto both the first group and the second group, the first backup deviceinherits the second schedule of storage operations associated with thesecond group while retaining the first schedule of storage operationsassociated with the first group, and in the event the first schedule ofstorage operations conflicts with the second schedule of storageoperations associated with the second storage policy, the schedule ofstorage operations associated with a higher priority controls.
 9. Thecomputer system of claim 8, wherein the backup devices are grouped basedon the backup devices having a common characteristic.
 10. The computersystem of claim 8, wherein the backup devices are grouped based on atemplate.
 11. The computer system of claim 8, wherein the backup devicesare grouped based on user input.
 12. The computer system of claim 8,wherein when the first backup device automatically inherits the secondschedule of storage operations associated with the second group whileretaining the first schedule of storage operations associated with thefirst group.
 13. The computer system of claim 8, wherein in the event anon-conflict storage operation associated with the first schedule ofstorage operations is to be performed on the first backup device,performing the non-conflict storage operation in accordance with thefirst schedule of storage operations.
 14. The computer system of claim13, wherein in the event a non-conflict storage operation associatedwith the second schedule of storage operations is to be performed on thefirst backup device, performing the non-conflict storage operation inaccordance with the second schedule of storage operations.